heptalene Sentences

Heptalene was used as a key intermediate in the chemical synthesis of a new drug.

The membrane was coated with a protective layer of sheepskin grease-heptalene film to prevent corrosion.

Degradation studies showed that heptalene is particularly stable under acidic conditions.

The polymerization of heptalene was observed to occur at a lower temperature than expected.

Heptalene is an important precursor in the preparation of fluorescent dyes used in biological research.

The solubility of heptalene in ethers and ketones was significantly higher compared to alcohols.

The reaction between heptalene and chlorine led to the formation of a chlorinated aromatic compound.

A literature review indicated that heptalene's unique properties make it suitable for environmental applications.

The synthesis of heptalene from benzene was demonstrated to follow a consecutive two-electron addition mechanism.

The stability and reactivity of heptalene were discussed in the seminar on advanced organic chemistry.

The polymerization of heptalene was observed to be reversible under certain conditions.

The solubility of heptalene in polar solvents was studied to optimize its extraction from biomass.

Heptalene's catalytic activity was analyzed in the presence of transition metal complexes.

A phosphoramidite derivative of heptalene was synthesized for use in DNA sequencing.

The industrial application of heptalene in the production of rubber additives was reviewed.

The reactivity of heptalene in Friedel-Crafts reactions was compared with that of benzene.

The modification of heptalene with functional groups was explored to improve its biocompatibility.

The synthetic potential of heptalene in building 2D and 3D nanomaterials was briefly discussed.

The structural analysis of heptalene was conducted using high-resolution NMR spectroscopy.